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UV B Radiation From Environmental Stressor to Regulator of Plant Growth 1st Edition by Vijay Pratap Singh, Samiksha Singh, Sheo Mohan Prasad, Parul Parihar ISBN 1119143608 978-1119143604

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UV B Radiation From Environmental Stressor to Regulator of Plant Growth 1st Edition Vijay Pratap Singh Digital Instant Download

Author(s): Vijay Pratap Singh, Samiksha Singh, Sheo Mohan Prasad, Parul Parihar
ISBN(s): 9781119143635, 1119143632
Edition: 1
File Details: PDF, 4.08 MB
Year: 2017
Language: english
SKU: EB-7035190 Category: Tags: , , ,

UV B Radiation From Environmental Stressor to Regulator of Plant Growth 1st Edition by Vijay Pratap Singh, Samiksha Singh, Sheo Mohan Prasad, Parul Parihar – Ebook PDF Instant Download/Delivery: 1119143608 , 978-1119143604
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ISBN 10: 1119143608
ISBN 13: 978-1119143604
Author: Vijay Pratap Singh, Samiksha Singh, Sheo Mohan Prasad, Parul Parihar 

Ultraviolet-B (UV-B) is electromagnetic radiation coming from the sun, with a medium wavelength which is mostly absorbed by the ozone layer. The biological effects of UV-B are greater than simple heating effects, and many practical applications of UV-B radiation derive from its interactions with organic molecules. It is considered particularly harmful to the environment and living things, but what have scientific studies actually shown?

UV-B Radiation: From Environmental Stressor to Regulator of Plant Growth presents a comprehensive overview of the origins, current state, and future horizons of scientific research on ultraviolet-B radiation and its perception in plants. Chapters explore all facets of UV-B research, including the basics of how UV-B’s shorter wavelength radiation from the sun reaches the Earth’s surface, along with its impact on the environment’s biotic components and on human biological systems. Chapters also address the dramatic shift in UV-B research in recent years, reflecting emerging technologies, showing how historic research which focused exclusively on the harmful environmental effects of UV-B radiation has now given way to studies on potential benefits to humans. Topics include:

  • UV-B and its climatology
  • UV-B and terrestrial ecosystems
  • Plant responses to UV-B stress
  • UB- B avoidance mechanisms
  • UV-B and production of secondary metabolites
  • Discovery of UVR8

Timely and important, UV-B Radiation: From Environmental Stressor to Regulator of Plant Growth is an invaluable resource for environmentalists, researchers and students who are into the state-of-the-art research being done on exposure to UV-B radiation.

UV B Radiation From Environmental Stressor to Regulator of Plant Growth 1st Table of contents:

1 An Introduction to UV‐B Research in Plant Science

1.1 The Historical Background

1.2 Biologically Effective Irradiance

1.3 UV‐B‐induced Effects in Plants

1.4 Conclusion and Future Perspectives

Acknowledgements

References

2 Stimulation of Various Phenolics in Plants Under Ambient UV‐B Radiation

2.1 Introduction

2.2 UV‐B Radiation

2.3 Phenolics

2.4 UV‐B Radiation Stimulates Phenolic Induction

2.5 UV‐B‐Induced Photomorphological Responses

2.6 Photosynthesis Under UV‐B Radiation

2.7 UV‐B Radiation Induces Phenolics Accumulation in Fruits

2.8 Conclusion and Future Perspectives

References

3 UV‐B Radiation: A Reassessment of its Impact on Plants and Crops

3.1 Introduction

3.2 Plant Production

3.3 Plant Protection Against UV‐B

References

4 Interaction of UV‐B with the Terrestrial Ecosystem

4.1 Introduction

4.2 Growth and Development

4.3 Secondary Metabolites

4.4 Susceptibility to Herbivorous Insects

4.5 Plant Sexual Reproduction

4.6 Genomic Level

4.7 Conclusion

References

5 A Review on Responses of Plants to UV‐B Radiation Related Stress

5.1 Introduction

5.2 Morphological and Yield Response to UV‐B

5.3 Targets of UV‐B in the Carbon Fixation Cycle

5.4 Photoreceptors and Signalling Pathway in Response to UV‐B Radiation

5.5 Acclimatization and Protection in Response to UV‐B

5.6 Oxidative Stress and Antioxidant System in Response to UV‐B

5.7 DNA Damage and Repair Mechanism

5.8 Exclusion of UV Components: Experimental Approach to Study the Effect on Plants

5.9 Conclusion and Future Perspectives

Acknowledgement

References

6 Oxidative Stress and Antioxidative Defence System in Plants in Response to UV‐B Stress

6.1 Introduction

6.2 Plant Protection Against UV Radiation

6.3 UV‐B and ROS

6.4 UV‐B and Antioxidant Enzymes

6.5 UV‐B and Antioxidant

6.6 UV‐B and Signalling

6.7 Conclusion and Future Perspectives

References

7 Major influence on phytochrome and photosynthetic machinery under UV‐B exposure

7.1 Introduction

7.2 Photomorphogenesis in Higher Plants

7.3 Effect of UV‐B Exposure on Photosynthetic Machinery

7.4 Conclusion and Future Perspectives

References

8 UV‐B Radiation‐Induced Damage of Photosynthetic Apparatus of Green Leaves: Protective Strategies vis‐a‐vis Visible and/or UV‐A Light

8.1 Introduction

8.2 UV‐B Effects on the Photosynthetic Apparatus of Leaves

8.3 UV‐A Effects on Photosynthetic Apparatus of Leaves (Damage and Promotion)

8.4 UV‐A‐Mediated Modulation of UV‐B‐Induced Damage

8.5 PAR‐Mediated Balancing of UV‐B‐Induced Damage

8.6 Photosynthetic Adaptation and Acclimation to UV‐B Radiation

8.7 Corroboration with Sensible Approach

8.8 Conclusion

Acknowledgements

References

9 Ultraviolet Radiation Targets in the Cellular System: Current Status and Future Directions

9.1 Introduction

9.2 Absorption Characteristics of Biomolecules

9.3 Action Spectrum

9.4 Targets of UV‐B

9.5 The Photosynthetic Machinery

9.6 Cell Division and Expansion

9.7 Conclusion and Future Perspectives

Acknowledgements

References

10 Silicon: A Potential Element to Combat Adverse Impact of UV‐B in plants

10.1 Introduction

10.2 The role of Silicon Against UV‐B Exposure on Morphology of Plants

10.3 The defensive role of silicon against UV‐B exposure on physiological and biochemical traits of plants

10.4 Silicon repairs anatomical structures of plants damaged by UV‐B exposures

10.5 UV‐B‐induced oxidative stress and silicon supplementation in plants

10.6 Silicon supplementation and the status of antioxidant enzymes in plants exposed to UV‐B

10.7 Silicon and level of phenolic compounds under UV‐B stress

10.8 Conclusion and future Perspectives

References

11 Sun‐Screening Biomolecules in Microalgae: Role in UV‐Photoprotection

11.1 Introduction

11.2 Global Climate Change and UV Radiation

11.3 Effects of UV Radiation on Microalgae

11.4 UV‐induced Defence Mechanisms

11.5 Sun‐Screening Biomolecules as Key UV Photoprotectants

11.6 UV‐Induced Biosynthesis

11.7 Photoprotective Function

11.8 Conclusion

Acknowledgements

References

12 Plant Response: UV‐B Avoidance Mechanisms

12.1 Introduction

12.2 Ultraviolet Radiation: Common Source, Classification and Factors

12.3 UV‐B and Human Health

12.4 UV‐B and Plant Responses

12.5 UV‐B Avoidance and Defence Mechanism

12.6 UV‐B and its Significance

12.7 Conclusion and Future Perspectives

Acknowledgments

References

13 Impact of UV‐B Exposure on Phytochrome and Photosynthetic Machinery: From Cyanobacteria to Plants

13.1 Introduction

13.2 Effect of UV‐B Irradiation on Photosynthetic Machinery of Cyanobacteria

13.3 Effect of UV‐B Irradiation on Photosynthetic Machinery of Algae

13.4 Effect of UV‐B Irradiation on Photosynthetic Machinery of Higher Plants

13.5 Conclusion and future perspectives

Acknowledgements

References

14 Discovery of UVR8: New Insight in UV‐B Research

14.1 Introduction

14.2 Photoperception in Plants

14.3 Discovery of UVR8: UV‐B Photoreceptor

14.4 UVR8 Structure

14.5 Physiological Roles of UVR8

14.6 Conclusion and Future Perspectives

References

15 UVR8 Signalling, Mechanism and Integration with other Pathways

15.1 Introduction

15.2 UVR8‐Arbitrated Signalling

15.3 Molecular Mechanism of Photoreceptor‐Mediated Signalling

15.4 UVR8 Involvements in Different Pathways

15.5 Conclusion and Future Perspectives

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Tags: Vijay Pratap Singh, Samiksha Singh, Sheo Mohan Prasad, Parul Parihar, UV B, Plant Growth